Issue |
OCL
Volume 20, Number 2, March-April 2013
|
|
---|---|---|
Page(s) | 93 - 101 | |
Section | Dossier : La place des lipides dans l’alimentation | |
DOI | https://doi.org/10.1051/ocl.2013.0500 | |
Published online | 15 March 2013 |
Central lipid detection and the regulation of feeding behavior
1
Université Paris Diderot, Sorbonne Paris Cité, Unité de biologie fonctionnelle et adaptative, CNRS EAC 4413, F-75205 Paris, France
2
Université Paris Diderot-Paris 7, CNRS EAC 4413, Equipe HERGE, ATIP COBE (COntrol Central de la Balance Energetique), 4 rue Marie-Andrée Lagroua Weill-Hallé, Bâtiment Buffon, 5e étage, pièce 512A, Case courrier 7126, 75205 Paris Cedex 13, France
*
serge.luquet@univ-paris-diderot.fr
Received:
30
January
2013
Accepted:
6
February
2013
The modern abundance of energy-rich foods combined with a shift to more sedentary lifestyles has led to a thermodynamic imbalance in which excessive caloric intake and reduced energy expenditure account for the prevalence of obesity. In particular, exposure to lipid-rich diet is thought to promote metabolic alteration in peripheral tissue associated with obesity-related diseases. The regulation of energy balance depends on the ability of the brain to provide an adaptive response to change in circulating factors of hunger and satiety. The hypothalamus is particularly regarded as key integrative structure but, aside from hypothalamic-mediated homeostatic control, feeding behavior is also modulated by sensory inputs, such as tastes and odors, as well as by affective or emotional states. The reinforcing and motivational aspects of food are closely tied to the release of the neurotransmitter dopamine by the mesolimbic system, which is stimulated by calorie-dense foods as well as by most other objects of desire. Therefore feeding behavior is regulated by homeostatic as well as non-homeostatic inputs from the hypothalamus and the mesolimbic region. Interestingly, these structures expresses several enzymes involved in the processing of triglyceride and fatty acid and the recent literature provide growing evidence that fatty acid metabolism within discrete brain regions can function as sensor of nutrient availability directly control the hedonic and the homeostatic aspect of feeding.
Key words: Free fatty acid / triglycerides / lipoprotein lipase / mesolimbic system / reward / hypothalamus
© John Libbey Eurotext 2013
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